I was recently on a trip to southeastern Minnesota for several days. While there, inevitably I ended up with some geological photos. I must confess that I've never spent any time down here outside of passing through, and this was actually the first occasion I'd spent any time above the Cummingsville, so it was nice to see the overlying units I'd only read about before. If you'd like to know what we're up against, I recommend the Minnesota Geological Survey's geologic atlas of Fillmore County (the trip wasn't entirely in Fillmore County, but you'll get the idea).
Equatorial Minnesota
Minnesota paleontology and geology, National Park Service paleontology, the Mesozoic, and occasional distractions
Saturday, August 2, 2025
Sunday, July 20, 2025
Fossil Ursids of the National Park Service
Here we are, a little later than usual for the annual "Fossil [Group] of the National Park Service" but present nonetheless. I decided to get in another group of carnivorans, this time the bears (Ursidae). If you've been here for the cats and dogs, you can probably guess the basic shape of things: a few records earlier in the Cenozoic, then a big slug in the Pleistocene into the Holocene, with many of the records representing living species. That is indeed how it goes with the bears as well, with a couple of quirks: the bear record goes back as far as the dog record, into the Chadronian (Late Eocene), but is never as diverse as the records for either cats or dogs. Essentially you get a couple of genera or species in a formation, and that's about it. Bears, it seems, have never felt the need to be profuse about the business of being bears. It's not quite "one-bear-fits-all", but bears favor generalism, and there's only room for so many species of generalists in one place and time.
Saturday, July 5, 2025
Odds and Ends
Several items worth a brief comment...
Minnesota state fossil
By Minnesota law, Castoroides ohioensis, the "giant beaver", became Minnesota's state fossil on July 1, 2025. C. ohioensis is a rare case of a write-in winning (the original slate of candidates did not include it). Call me a lot of things (crazy, no fun, pessimistic about human nature), but I have a hard time believing the giant beaver won based on its merits as a fossil found in Minnesota, as opposed to a bunch of people on the Internet thinking it would be funny for Minnesota's state fossil to be a giant beaver. Which, I suppose, is a reasonable response to the idea of state symbols in general and state fossils in particular.
Enigmacursor
Speaking of pessimism, no sooner are all previous names for Morrison Formation "hypsils" declared dubious than a paper by the same authors comes out naming... a new Morrison Formation "hypsil". (Not the first time this kind of thing has taken place, but usually the declaration of invalidity and the new name come in the same paper.) Anyway, the new one is Enigmacursor mollyborthwickae, based on a partial skeleton from Colorado featuring vertebrae, ribs, and most of the girdles and limbs. It's not one of the more famous (well, "famous", but bear with me) unnamed Morrison specimens like BYU ESM 163R or "Barbara" but instead was recovered a few years ago. (Some days it feels like famous unnamed specimens *never* get described, but I digress.) Given the matter of chimeric specimens discussed in the Nanosaurus paper, a quarry map would have been a nice inclusion. E. mollyborthwickae looks and phylogenetically acts about the way you'd expect out of a Morrison "hypsil". I wouldn't expect that it actually *is* the closest relative to Yandusaurus hongheensis among all dinosaurs known to date (for one thing, that's putting a lot of faith in Yandusaurus, one of those dinosaurs that seems more complete and better known than it is), but that's about where Morrison "hypsils" always turn up.
Tyrannosaurus
Meanwhile, on the reincarnation of the Dinosaur Mailing List, the Dinosaur Mailing Group, the hot topic has been Tyrannosaurus and nanotyrants. Some things never change, after all. It's not a spontaneous irruption, but driven by Gregory Paul's new review of latest Cretaceous western North American tyrannosaurs. This follows on the paper a couple of years ago proposing to split T. rex into three species. Paul further revises Tyrannosaurus in this paper, supporting not only the removal of Nanotyrannus lancensis, but also Stygivenator molnari. (If you remember using the word "aublysodont" seriously, you know what's up, and there's an excellent chance you're also at least 40.) These two species are interpreted as having crossed over from Appalachia (the eastern half of North America) with the dwindling of the Western Interior Seaway, which is a fascinating idea worth further consideration.
Will it settle anything? I don't expect it to. At this point it feels like everyone is well beyond being burned out on the topic and is firmly set in their ways. It doesn't help that Nanotyrannus, along with spinosaurs and exaggerated dinosaur sizes, is one of the most obnoxious long-running issues among dinosaur enthusiasts, providing further incentive to stay the heck away. It's a pity, though, because there's something something weirdly Alioramus-y going on with some of these specimens, and all we ever do is circle around the same couple of points we always have.
Probably 25 years ago or more I posted something on the DML about a taxonomic discussion, and another member suggested we'd be better off not using the names at all and just using specimen numbers. I thought it was crazy at the time since they're a lot harder to keep track of, but with time I'm definitely coming around to the idea.
Lithodendron
The second issue of Lithodendron, Petrified Forest National Park's journal, has just come out. Contributions to this issue include a report of a large silesaurid (and coelophysoid) from the park, and the printing of a previously unpublished stratigraphic study of the park from 1940 (always good to see formerly overlooked research get published!).
Cenozoic Life and Mesozoic Life in the National Parks coloring books
Finally, some uncomplicated fun: We've recently produced coloring books of Cenozoic and Mesozoic life in the National Parks to go with the Prehistoric Life in the National Parks coloring book from a few years back. They feature a mix of artwork from the original coloring book plus newer pages. The links above will take you to the data store pages for the two books, which can be downloaded freely as pdfs. Parks with notable Cenozoic or Mesozoic fossils may also have physical copies available.
References
Maidment, S. C. R., and P. M. Barrett. 2025. Enigmacursor mollyborthwickae, a neornithischian dinosaur from the Upper Jurassic Morrison Formation of the western USA. Royal Society Open Science 12(6):242195. doi: https://doi.org/10.1098/rsos.242195
Paul, G. S. 2025. A presentation of the current data on the exceptionally diverse non-tyrannosaurid eutyrannosaur and tyrannosaurini genera and species of western North America during the End Cretaceous North American Interchange. Mesozoic 2(2): 85–138. https://doi.org/10.11646/mesozoic.2.2.1
Thursday, June 19, 2025
Feeding Diamantinasaurus
It's no secret that we like titanosaurs here at Equatorial Minnesota, and another favorite topic is potential gut contents in herbivorous dinosaurs (albeit we don't see a lot of papers on it). When Poropat et al. (2025)'s paper on the potential gut contents of a specimen of Diamantinasaurus matildae came out a couple of weeks ago, it was an obvious paper to cover here. True, diamantinasaurus may not be titanosaurs by phylogeny, but they're close, and they're still titanosaurs in our hearts.
Sunday, June 1, 2025
The Find
A weekend or so back I traveled down to Whitewater State Park to participate in their Fossil Field Trip event. As part of this, visitors go to a site off of the park where they can hunt for fossils (participants can keep two). It was very well presented and attended! The site is in the Cummingsville Formation, which is the limestone that follows the Decorah Shale. (Actually, it's a bit more complicated than that: much of the Cummingsville Formation in Olmsted County is roughly the offshore equivalent of the more nearshore Decorah of the Twin Cities, so where we were is probably equivalent to a horizon in the upper half of the Decorah quarry walls at the Brickyard.) Unlike the distinctive green-gray Decorah, the Cummingsville presents as a tan unit. It's a shaly limestone at the site, so it doesn't quite have the strength of a pure limestone, but it does better than the Decorah.
![]() |
Weathering Cummingsville at the site. |
The Cummingsville is not as fossiliferous as the Decorah, even accounting for my different search image, and the site is a known fossil site, so the going was slow at the beginning. Then I found this:
![]() |
Well, I did do a little prep work and applied water before taking this picture, and the rock is about palm-sized all told, but you get the idea. |
I'd been hoping to find a receptaculitid, because those are common in the Cummingsville and I haven't found one, but this was something better. Even in an unprepared state it was obviously an echinoderm based on the plates, but what kind? A crinoid calyx? Something else?
![]() |
If you know what the arrows are pointing to... |
The prep work exposed the little vent-like features, meaning it was some kind of rhombiferan cystoid. The cleaning also made it more obvious where the plates met, which can be kind of confusing when there are all these ridges to mislead the eye.
![]() |
A handy diagram! The dotted lines are where the plate edges become obscure or are lost. |
If you don't know what it is, check this out:
![]() |
Figure 1 from Parsley (1970), with red lines and dots added by me. Original image CC BY-NC-SA 3.0. |
Yup, this is a Pleurocystites, or at least a good-sized chunk of one. Either P. squamosus (Parsley 1970) or P. strimplei (Brower 1999) would be appropriate for the Cummingsville; there's not really enough there to tell between them, but I'm not complaining! It's fun to be in the right place at the right time with the right knowledge and experience.
References
Brower, J. C. 1999. A new pleurocystitid rhombiferan echinoderm from the Middle Ordovician Galena Group of northern Iowa and southern Minnesota. Journal of Paleontology 73(1): 129–153.
Mossler, J. H. 2008. Paleozoic stratigraphic nomenclature for Minnesota. Minnesota Geological Survey, St. Paul, Minnesota. Report of Investigations 65.
Parsley, R. L. 1970. Revision of the North American Pleurocystitidae (Rhombifera-Cystoidea). Bulletins of American Paleontology 58(260): 135–213.
Sunday, May 25, 2025
The Continuing Story of Nanosaurus agilis
Recently Barrett and Maidment (2025) published a paper on the state of Morrison hypsilophodont-things, which is of great interest here because after two long posts on Nanosaurus agilis, we're solidly invested in its fate. How did it fare? Short answer: not very well. But, on the other hand, neither did anybody else. Well, Drinker was shown more appreciation than probably anyone has given it since 1990, but that's not saying much.
![]() |
So, what to call these happy fellows at the Denver Museum of Nature and Science? |
Barrett and Maidment (2025) went over the type specimens of N. agilis, N. rex (Othnielia), Laosaurus celer, L. consors (Othnielosaurus), L. gracilis, and, via illustrations, Drinker nisti. (There is a slight advance on Carpenter and Galton 2018, in that we now get the implication that Bob Bakker has D. nisti as opposed to the whereabouts being unknown.) They find none of the type specimens to be diagnostic. The one that comes off the worst is L. consors. Material cataloged as the type is an assemblage rather than an individual. To be fair, Marsh knew he had multiple individuals at the time, but then he should have been more careful about specifying a type. The parts that had been on display as a panel mount at Yale may be one associated individual, consisting of most of the cervical and dorsal series (just centra), possibly six sacrals, parts of the left shoulder girdle and the pelvis, a partial left femur and complete left foot, and parts of the right femur, tibia, and astragalus. This is a lot of parts/partials plus a lot of plaster, which is not encouraging. The rest of the material is a chimeric mix including at least juvenile dryosaur and hypsil material. The only one of the six that ends up being interesting is D. nisti, which has some dental and jugal features reminiscent of pachycephalosaurs (but is still not diagnostic, although it would be nice to have the type material in hand to be sure).
Where does this leave the Morrison hypsil(s), which Carpenter and Galton (2018) had declared N. agilis? Anonymous, for the time being. Carpenter and Galton (2018) looked upon the pile of Morrison hypsil bits and proposed it was "all" Nanosaurus agilis. Barrett and Maidment (2025) looked upon the same pile and clutch of names and regarded it as a taxonomic dead end, to be set aside to allow a fresh start for more complete and better preserved specimens (with quarry maps and documented associations and such).
At heart, we're seeing two different approaches to taxonomy, and which one you choose depends on how pragmatic you are and how bound you feel by existing names. If you want a species with a holotype featuring robust apomorphies, N. agilis is not for you. We saw that in the comments section of the last post: most of the characters cited by Carpenter and Galton (2018) are widely distributed among hypsil-things, with just a couple that might have some particular use. However: Is there a hypsil-thing in the Morrison that is anatomically
consistent across specimens, whether or not said specimens are
diagnostic across Ornithischia? If so, is it reasonable to call this
hypsil *something*, knowing that it may be revised later? If so, the oldest existing name is Nanosaurus agilis. If you go that route, I'd recommend looking into a neotype, though. ("All would be well, if, if, if, if, if...")
References
Barrett, P. M., and S. C. R. Maidment. 2025. A review of Nanosaurus agilis Marsh and other small-bodied Morrison Formation “ornithopods". Bulletin of the Peabody Museum of Natural History 66(1): 25–50. doi: https://doi.org/10.3374/014.066.0102.
Carpenter, K., and P. M. Galton. 2018. A photo documentation of bipedal ornithischian dinosaurs from the Upper Jurassic Morrison Formation, USA. Geology of the Intermountain West 5:167–207. doi:
Sunday, May 11, 2025
The downside of reef building?
I was reviewing text for a website a few weeks back dealing with aspects of the history of life, and a couple of things struck me about biological reefs. First, a quick look at reef-builders through time (a useful overview can be found here if you'd prefer more flesh on the bones, or corallites or shells or whatever may be more appropriate):
The first multicellular reef-builders were the archaeocyathan sponges, who flourished briefly in the Cambrian but did not even make it to the end of the period. Corals, in the form of rugose and tabulate corals, spread in the Ordovician but took a while to make reefs. They were joined by stromatoporoid sponges (layered like stromatolites, spelled like stromatolites, but not stromatolites) and various microbes, with the Devonian being an apex of reef-building. The classic stromatoporoid-tabulate reefs of the Devonian went kaput in the End-Devonian extinction. Permian reefs were a conglomeration of just about everything that couldn't get out of the way: various algae, sponges, bryozoans, and other less obvious things. This assortment bought it at the end of the Permian. False starts with scleractinian corals in the first part of the Mesozoic gave way to the rudist bivalves in the Cretaceous. The rudist reefs went out with non-avian dinosaurs, marine reptiles, pterosaurs, ammonites, and so forth at the end-Cretaceous extinction. Finally we get to the big scleractinian coral reefs in the Cenozoic, with some sponge and oyster reefs and such for variety.
So far, a typical pattern: group of organisms branches into reef building, reefs spread and become ecologically complex, reefs flourish for a while, mass extinction wipes out reefs. Then after a hiatus reefs become fashionable again, with some other group laying the foundation for a new iteration, and the cycle continues. A couple of observations come to mind. First, reefs seem to be an obvious evolutionary path for immobile marine invertebrates. It may take some time, but some group always takes up the baton after another falters.
Then, the other shoe. What happens to the previous reef-builders? Seen any archaeocyaths lately? Any vacation packages advertising stromatoporoid reef visits for their island getaways? Run across any rudists while snorkeling? Could it be that once a group goes all-in on the reef habit, it's stuck with it?
Furthermore, reefs have a habit of getting smacked in mass extinction events. Does a reef inherit a narrowing range of environmental restrictions from its components as its complexity increases? Does it become vulnerable to unpredictable instability, such as some minor constituent going through a bad patch leading to collapse via a Rube Goldbergian-cascade of events? More broadly, does reef building amount to an evolutionary Faustian bargain, in which a group becomes dominant for a while by locking itself into a doomed arrangement? (Granted, we're all doomed in the final analysis, but some of us are more obviously doomed than others.) Or am I just playing the gloomy Minnesotan?